CN209078430U - The high edging device of operation stability and tile edge production system - Google Patents

Abstract

The utility model discloses a kind of edging device that operation stability is high and tile edge production system, and the high edging device of the operation stability includes: head holder, offers bistrique chamber thereon；It is intracavitary to be slidably mounted in bistrique along first direction, and has axis hole for axle sleeve；Grinding head shaft is installed in rotation in axis hole；Edging wheel is installed on the first end of grinding head shaft；Micromatic setting is mounted on head holder, and is slided on head holder along first direction for propeller shaft sleeve, to drive edging wheel to move along first direction, and keeps the position of edging wheel in a first direction adjustable；And locking device, it is mounted on the head holder, and for locking the axle sleeve.In this way, the high edging device of operation stability not only can be improved to the machining accuracy of ceramic tile；But also the scope of application of the high edging device of operation stability can be improved.

Description

The high edging device of operation stability and tile edge production system

Technical field

The utility model relates to ceramic tile production and processing equipment technical field, in particular to a kind of edging that operation stability is high Device and tile edge production system.

Background technique

Edging device is in ceramic tile production process, and to the equipment that tile corner is processed, existing edging device is generally wrapped The edging wheel for including edging motor and being mounted on the output shaft of edging motor, edging motor is for driving edging wheel to rotate, edging Wheel is processed for the side to ceramic tile.Existing edging device is usually the rack for being directly anchored to tile edge production system On, for carrying out edging to the ceramic tile to be processed in rack.

Since existing edging device not can control the amount of feeding of edging wheel in its axial direction generally, so that existing edging device It is lower to the machining accuracy of ceramic tile.

Utility model content

The main purpose of the utility model is to propose a kind of edging device that operation stability is high, it is intended to solve existing operation The high edging device of stability not can control the technical issues of amount of feeding of edging wheel in its axial direction.

To achieve the above object, the utility model proposes a kind of edging devices that operation stability is high, comprising:

Head holder offers on the head holder and extends along the first direction and the bistrique chamber of both ends open setting；

It is intracavitary to be slidably mounted in the bistrique along first direction for axle sleeve, and the axle sleeve has along the first party To extension axis hole；

Grinding head shaft is installed in rotation in the axis hole；

Edging wheel is installed on the first end of the grinding head shaft；

Micromatic setting is mounted on the head holder, and for driving the axle sleeve in the intracavitary sliding of the bistrique, with band It moves the edging wheel to move along first direction, and keeps the position of the edging wheel in a first direction adjustable；And

Locking device, including the first locking member and the first fastener, the side of the head holder offer and the bistrique The first locking hole that chamber is connected, first locking member are movably inserted in a second direction in first locking hole； First locking member is set to the side of the axle sleeve, and first fastener connects first locking member and the bistrique Seat, and first locking member can be driven movable in a second direction by first fastener, so that first locking Part is close and locks or separate and unclamp the axle sleeve；The part that the outer peripheral surface of the axle sleeve corresponds to first locking member is equipped with First anti-skid structure.

Optionally, first anti-skid structure is provided for increase coefficient of friction, scraggly irregular lines.

Optionally, first locking member inner end has been recessed and the sleeve outer surface close to the side of the axle sleeve The first tight lock part to match, when first locking member locks the axle sleeve, first tight lock part is supported with the axle sleeve It connects, and is matched for clamping tightly the axle sleeve with the head holder；

First tight lock part surface is equipped with the second anti-skid structure.

Optionally, first anti-skid structure is set as spaced a plurality of first anti-sliding burr in a second direction, phase The first antiskid groove is formed between the adjacent two first anti-sliding burrs；Between second anti-skid structure is set as in a second direction It is formed with the second antiskid groove between a plurality of second anti-sliding burr of setting, the adjacent two second anti-sliding burr, described One anti-sliding burr and the described second anti-sliding burr are staggered respectively in second antiskid groove and the first antiskid groove.

Optionally, the locking device further includes the second locking member, and the other side of the head holder offers and described One locking hole is corresponding and the second locking hole for being connected to, and second locking hole is connected with the bistrique chamber, and described second locks Tight part is movably inserted in a second direction in second locking hole；

First locking member and second locking member are divided into the two sides of the axle sleeve, the first fastener connection First locking member and second locking member, and by first fastener can drive first locking member with it is described Second locking member is movable in a second direction, to lock or unclamp the axle sleeve.

Optionally, the locking device further includes elastic component, and elasticity is only butted on described the respectively at the both ends of the elastic component One locking member and second locking member.

Optionally, the micromatic setting includes adjusting screw rod, and the adjusting screw rod is screwed onto the bistrique along first direction On seat, the adjusting screw rod and the shaft room are every setting, and one end of the adjusting screw rod is fixedly connected with the axle sleeve, with The axle sleeve is driven to slide on head holder along first direction.

Optionally, the micromatic setting further includes that intermeshing connection adjusts worm screw and adjusts worm gear, the adjusting worm screw It is installed in rotation on the head holder with the adjusting worm gear, and the adjusting screw rod and the axis for adjusting worm gear are pacified Dress hole is spirally connected；The worm gear can be driven to rotate by rotating the adjusting worm screw, the rotation of the worm gear can drive to be spirally connected therewith The adjusting screw rod drive the axle sleeve to slide on head holder along first direction.

Optionally, the outer peripheral surface far from described edging wheel one end of the axle sleeve is convexly equipped with Connection protrusion, the adjusting spiral shell One end of bar is fixedly connected on the Connection protrusion.

The utility model also proposes a kind of tile edge production system, comprising:

Rack；

Conveyer belt, the conveyer belt are mounted on the rack；And

The high edging device of operation stability, the high edging device of the operation stability are mounted on the rack, and Set on the side of the conveyer belt, for being processed to the ceramic tile to be processed on conveyer belt.The operation stability is high Edging device, comprising: head holder offers on the head holder and extends along the first direction and the mill of both ends open setting Head cavity；It is intracavitary to be slidably mounted in the bistrique along first direction for axle sleeve, and the axle sleeve has and prolongs along the first direction Stretch axis hole；Grinding head shaft is installed in rotation in the axis hole；Edging wheel is installed on the first end of the grinding head shaft；Fine tuning dress It sets, is mounted on the head holder, and for driving the axle sleeve in the intracavitary sliding of the bistrique, to drive the edging wheel edge First direction is mobile, and keeps the position of the edging wheel in a first direction adjustable；And locking device, including the first locking member And first fastener, the side of the head holder offer the first locking hole being connected with the bistrique chamber, first lock Tight part is movably inserted in a second direction in first locking hole；First locking member is set to the one of the axle sleeve Side, first fastener connects first locking member and the head holder, and can drive institute by first fastener It is movable in a second direction to state the first locking member, so that first locking member is close and locks or separate and unclamp the axis Set；The part that the outer peripheral surface of the axle sleeve corresponds to first locking member is equipped with the first anti-skid structure.

The high edging device of the utility model operation stability can control the amount of feeding of edging wheel in its axial direction, thus The high edging device of operation stability not only can be improved to the machining accuracy of ceramic tile；But also it can be by adjusting edging wheel at it The amount of feeding in axial direction, to process the ceramic tile of different dimensions, so that the suitable of the high edging device of operation stability can be improved Use range.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the cross-section structure signal at a visual angle of high one embodiment of edging device of the utility model operation stability Figure；

Fig. 2 is the partial structural diagram for the edging device that operation stability is high in Fig. 1；

Fig. 3 is the partial enlarged view in Fig. 2 at A；

Fig. 4 is the schematic diagram of the section structure at another visual angle for the edging device that operation stability is high in Fig. 1；

Fig. 5 is the schematic diagram of the section structure of the variant embodiment for the edging device that operation stability is high in Fig. 4；

Fig. 6 is the partial enlarged view in Fig. 5 at B, wherein the first sliding convex end is set as up-side down triangle；

Fig. 7 is the partial enlarged view in Fig. 5 at B, wherein the first sliding convex end is set as down semicircle；

Fig. 8 is the schematic diagram of the section structure of the high another embodiment of edging device of the utility model operation stability；

Fig. 9 is the schematic diagram of the section structure of the high another embodiment of edging device of the utility model operation stability；

Figure 10 is the structural schematic diagram of one embodiment of the utility model tile edge production system.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture) Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one A this feature.It in addition, the technical solution between each embodiment can be combined with each other, but must be with ordinary skill Based on personnel can be realized, this technical side will be understood that when the combination of technical solution appearance is conflicting or cannot achieve The combination of case is not present, also not within the protection scope of the requires of the utility model.

The utility model proposes a kind of edging devices that operation stability is high.

The high edging device of the utility model operation stability is used for tile edge production system, to process tile corner. In embodiment provided by the utility model, as shown in Figure 10, the tile edge production system 1000 includes:

Rack 200；

Conveyer belt 300, the conveyer belt 300 are mounted in rack 200；And

The high edging device 100 of the utility model operation stability, the high edging device 100 of the operation stability are installed In the rack 200, and it is set to the side of the conveyer belt 300, for the ceramic tile to be processed 400 on conveyer belt 300 Carry out edging processing.

In an embodiment of the utility model, as shown in Figures 1 to 4, the high edging device 100 of the operation stability wraps It includes:

Head holder 10；

Axle sleeve 20 is slidably mounted on head holder 10 along first direction, and the axle sleeve 20 has to be prolonged along first direction The axis hole 21 stretched；

Grinding head shaft 30 is installed in rotation in the axis hole 21；

Edging wheel 40 is installed on the first end of grinding head shaft 30；And

Micromatic setting 50 is mounted on head holder 10, and sliding along first direction on head holder 10 for propeller shaft sleeve 20 It is dynamic, to drive grinding head shaft 30 to move with edging wheel 40 along first direction, and make the position of the edging wheel 40 in a first direction It is adjustable.

Specifically, the first direction is consistent with the axial direction of the grinding head shaft 30 and edging wheel 40.This is practical new Type by setting head holder 10 to support high 100 equipment of edging device of whole service stability, and is used for and other equipment Cooperation is to fix the high edging device 100 of the operation stability；By setting axle sleeve 20 to carry grinding head shaft 30 and edging wheel 40, So that the movement of edging wheel 40 in a first direction can be achieved；It, can be with propeller shaft sleeve 20 by the way that micromatic setting 50 is arranged It is slided on head holder 10 along first direction, to drive the grinding head shaft 30 being mounted on axle sleeve 20 and edging wheel 40 along first direction It is mobile, to keep the position of edging wheel 40 in a first direction adjustable.I other words can control edging wheel by micromatic setting 50 40 amount of feeding in its axial direction, so that the high edging device 100 of operation stability not only can be improved to the machining accuracy of ceramic tile； But also can by adjusting the amount of feeding of edging wheel 40 in its axial direction, to process the ceramic tile of different dimensions, so as to Improve the scope of application of the high edging device 100 of operation stability.

Further, the high edging device 100 of the utility model operation stability both can by external power device with Grinding head shaft 30 is driven to drive edging wheel 40 to rotate, which is mounted in rack 200, output end and grinding head shaft 30 connections；Edging power device 70 can also be carried and drive edging wheel 40 to rotate to drive grinding head shaft 30, edging power dress Setting 70 can both be directly installed on head holder 10, can also be mounted on head holder 10 by axle sleeve 20, edging power dress 70 output end is set to connect with grinding head shaft 30.

It is appreciated that when the scheme for driving edging wheel 40 to rotate using external power device, it can be by the external dynamic Power device output end and the grinding head shaft 30 are detachably connectable, wherein when 50 propeller shaft sleeve 20 of micromatic setting in a first direction When mobile, the output end of the external power device is separated with the grinding head shaft 30；It certainly can also be by external power device and machine The slidable connection in a first direction of frame 200, when 50 propeller shaft sleeve 20 of micromatic setting moves in a first direction, external power Device moves.Similarly, when driving 40 turns of edging wheel using edging power device 70 to be mounted directly on head holder 10 It, can be detachably connectable by the output end of the edging power device 70 and grinding head shaft 30, wherein when micromatic setting 50 when dynamic scheme When propeller shaft sleeve 20 moves in a first direction, the output end of the edging power device 70 is separated with grinding head shaft 30；Certainly It can also be by the edging power device 70 and head holder 10 slidable connection in a first direction, when 50 propeller shaft sleeve 20 of micromatic setting When moving in a first direction, which is moved.According to the utility model (including following embodiment) Introduction, those skilled in the art can be easy to the specific constructive form of above-mentioned multiple technical solutions, need not repeat one by one herein.

In the present embodiment, as shown in Figures 1 to 4, in order to improve the high edging device 100 of operation stability use just Victory, the high edging device 100 of the operation stability use included edging power device 70, and the edging power device 70 It is mounted on axle sleeve 20.In this way, the edging power device 70 can move in a first direction with axle sleeve 20, so as to letter Change the structure of the high edging device 100 of operation stability.

Specifically, as shown in Figures 1 to 4, separate described 40 one end of edging wheel of the axle sleeve 20 protrudes from the bistrique The opening of chamber 11, and the outer peripheral surface at the end is convexly equipped with Connection protrusion 22, the edging power device 70 is mounted on Connection protrusion 22 On.

In the present embodiment, as shown in Figures 1 to 4, the edging power device 70 includes edging motor 71, the edging Motor 71 is mounted in the Connection protrusion 22, and the fixed company of the second end of the output shaft of the edging motor 71 and grinding head shaft 30 It connects, to drive the grinding head shaft 30 to rotate.

Specifically, as shown in Figures 1 to 4, the high edging device 100 of the operation stability further includes shaft coupling 72, institute State output shaft and grinding head shaft 30 that shaft coupling 72 connects the edging motor 71, with realize the output shaft of the edging motor 71 with Grinding head shaft 30 links.Certainly, grinding head shaft 30 and the output shaft of edging motor 71 can also be wholely set, i.e., by edging motor 71 Output shaft is directly disposed as grinding head shaft 30.

Further, as shown in Figures 1 to 4, it offers and extends in a first direction and both ends open on the head holder 10 The bistrique chamber 11 of setting, the axle sleeve 20 are slidably mounted in bistrique chamber 11 along first direction, the first end of grinding head shaft 30 An opening of the bistrique chamber 11 is protruded to install edging wheel 40, another opening that the second end of grinding head shaft 30 passes through bistrique chamber 11 It is connect with edging power device 70.In this way, may not only facilitate installation axle sleeve 20, but also by setting bistrique chamber 11 convenient for control Axle sleeve 20 processed slides in a first direction.

Further, as shown in Figures 5 to 7, in some other embodiment of the utility model, the bistrique chamber 11 One of outer surface of inner wall and the axle sleeve 20 is convex equipped with the cunning extended in a first direction, and another be equipped with is prolonged along first direction The sliding slot stretched, the cunning is convex to be mounted in the sliding slot.In this way, making axle sleeve 20 be mounted on bistrique by sliding slot-cunning male structure In chamber 11, thus not only can be in order to be positioned to axle sleeve 20, while can prevent axle sleeve 20 from rotating along circumferential direction；But also The contact area between 20 outer surface of axle sleeve and the inner wall of bistrique chamber 11 can be reduced, so as to reduce axle sleeve 20 in bistrique chamber 11 Interior force of sliding friction, so as to be slided in bistrique chamber 11 convenient for axle sleeve 20.

Further, as shown in Figures 5 to 7, the cunning is convexly equipped in the outer surface of the axle sleeve 20, and the sliding slot is set to mill The inner wall of head cavity 11.It is appreciated that the utility model will be described in sliding be convexly equipped in compared to the outer surface that sliding slot is set to axle sleeve 20 The outer surface of axle sleeve 20 can reduce as much as possible the thickness of axle sleeve 20 in the case where ensuring 20 structural strength of axle sleeve, thus to the greatest extent The possibly weight of less axle sleeve 20, so not only can material saving, can also reduce sliding of the axle sleeve 20 in bistrique chamber 11 and rub Power is wiped, so as to slide in bistrique chamber 11 convenient for axle sleeve 20.

Further, as shown in Figures 5 to 7, the sliding convex closure includes first sliding convex 23, and described first sliding convex 23 is set to axle sleeve 20 bottom, the sliding slot include first sliding groove 111, and the first sliding groove 111 is set to the bottom of the inner wall of bistrique chamber 11, described First sliding convex 23 is set in first sliding groove 111.In this way, by 20 bottom of axle sleeve setting first sliding convex 23, and in bistrique chamber 11 The bottom of inner wall is correspondingly arranged first sliding groove 111, and the contact slide between axle sleeve 20 and bistrique chamber 11 can be concentrated mainly on to Between one sliding convex 23 and first sliding groove 111, so as to which sliding contact area between axle sleeve 20 and bistrique chamber 11 is mainly focused on Sliding contact area between first sliding convex 23 and first sliding groove 111, so as to further reduce 20 outer surface of axle sleeve and mill Sliding contact area between the inner wall of head cavity 11, so as to further reduce sliding friction of the axle sleeve 20 in bistrique chamber 11 Power, so as to be slided in bistrique chamber 11 convenient for axle sleeve 20.

Further, as shown in Figures 5 to 7, described first sliding convex 23 end is in tapered setting from top to bottom.In this way, The sliding contact area between 20 outer surface of axle sleeve and the inner wall of bistrique chamber 11 can be reduced, further so as to further subtract Force of sliding friction of the little axle sleeve 20 in bistrique chamber 11, so as to be slided in bistrique chamber 11 convenient for axle sleeve 20.

Specifically, first sliding convex 23 end may be configured as up-side down triangle, fall it is semicircle, fall half elliptic or to fall It is trapezoidal etc..

In the present embodiment, it can only include first sliding convex 23 that the cunning is convex, and the sliding slot can only include first sliding groove 111.

Further, the entrance of institute's sliding slot (is schemed not with the guide section on the convex slide-in direction of the cunning being in decrement setting Show).In this way, guide section is arranged by the entrance in sliding slot, it can be slided in convex slide-in sliding slot convenient for guidance, so as to be convenient for axle sleeve 20 are installed in bistrique chamber 11.

Further, as shown in Figures 1 to 7, the high edging device 100 of the operation stability further includes bistrique bearing 60, the bistrique bearing 60 includes that (figure is not for inner ring 61, outer ring 62 and the rolling element between the inner ring 61 and outer ring 62 Mark), the inner ring 61 is arranged with 62 opposed rotatable of outer ring；The bistrique bearing 60 is mounted in the axis hole 21, and described Outer ring 62 is fixedly connected with axle sleeve 20, and the grinding head shaft 30 is fixedly mounted in inner ring 61.

In this way, by setting bistrique bearing 60, it can be achieved that the grinding head shaft 30 to be installed in rotation on to the axis of axle sleeve 20 In hole 21；Secondly, connecting grinding head shaft 30 and axle sleeve 20 by bistrique bearing 60, the installation that can not only enhance grinding head shaft 30 is stablized Property, it can also reduce the noise of grinding head shaft 30 frictional resistance and generation suffered in rotation.In addition, grinding head shaft 30 passes through bistrique Bearing 60 is installed in axle sleeve 20, and axle sleeve 20 is mounted on head holder 10, and edging wheel 40 is mounted on grinding head shaft 30, so as to Enhance operation stability when edging wheel 40 rotates；When edging motor 71 drives grinding head shaft 30 to drive edging wheel rotation, to treat When processing tile edge processing, the bistrique bearing 60 can prevent grinding head shaft 30 and edging wheel 40 from shaking, so as to enhance bistrique The operation stability of axis 30, appearance the phenomenon that so as to effectively prevent chipping rotten brick, so that the high mill of operation stability can be improved Side device 100 is to the processing effect of ceramic tile, so as to the yield rate convenient for improving tile edge processing.

Specifically, as shown in Figures 1 to 7, it is multiple that the bistrique bearing 60 was spaced in a first direction be provided with, described Grinding head shaft 30 is sequentially arranged in the inner ring 61 of multiple bistrique bearings 60.In this way, grinding head shaft 30 can be further improved Mounting stability and operation stability.In the present embodiment, there are two the settings of bistrique bearing 60.

Certainly, grinding head shaft 30 is also directly mounted in axis hole 21, or is mounted in axis hole 21 by ball.

Further, as shown in Figures 1 to 7, the micromatic setting 50 includes adjusting screw rod 51,51 edge of adjusting screw rod First direction is screwed on the head holder 10, and the adjusting screw rod 51 is arranged with the interval of axle sleeve 20, and the adjusting screw rod 51 One end be fixedly connected with axle sleeve 20, with drive the axle sleeve 20 on head holder 10 along first direction slide.

It is slided in bistrique chamber 11 along first direction in this way, passing through rotation adjusting screw rod 51 and the axle sleeve 20 can be driven, So as to drive grinding head shaft 30 and edging wheel 40 to move along first direction, so that the feeding of edging wheel 40 in a first direction It measures adjustable.

Specifically, as shown in Figures 1 to 7, one end of the adjusting screw rod 51 is fixedly connected on the Connection protrusion 22, such as This can realize the linkage of adjusting screw rod 51 Yu axle sleeve 20.Moreover, sharing Connection protrusion 22 with edging motor 71, edging electricity can be simplified The structure of machine 71.

In the present embodiment, the adjusting screw rod 51 is connect with Connection protrusion 22 by fastener.Certainly, the adjusting spiral shell Bar 51 can also be connect by other connection types with Connection protrusion 22, such as welding etc..

Further, as shown in Figures 1 to 7, the micromatic setting 50 further includes that intermeshing connection adjusts 52 He of worm screw Worm gear 53 is adjusted, the adjusting worm screw 52 is installed in rotation on the head holder 10 with the adjusting worm gear 53, and institute Adjusting screw rod 51 is stated to be spirally connected with 53 shaft mounting hole of adjusting worm gear；The worm gear can be driven by rotating the adjusting worm screw 52 Rotation, the rotation of the worm gear can drive the adjusting screw rod 51 being spirally connected therewith to drive axle sleeve 20 on head holder 10 along first Direction sliding.

So, it is only necessary to which rotation adjusts worm screw 52 and the edging wheel 40 (i.e. edging wheel 40 in a first direction is adjusted Axial direction on) the amount of feeding.Meanwhile being driven screw turns by setting worm gear-endless screw mechanism, so as to relatively easily Realize and adjust the amount of feeding in a first direction of edging wheel 40 more by a small margin, can relatively easily realize to edging wheel 40 into To the fine tuning of amount.

Further, as shown in Figures 1 to 7, for the ease of the installation adjusting worm screw 52 and adjusting worm gear 53, the mill Second for being also provided with the first adjusting cavity 12 extended in a first direction on headstock 10 and being connected to first adjusting cavity 12 is adjusted Chamber 13 is saved, first adjusting cavity 12 is arranged with the interval of bistrique chamber 11, and the adjusting worm gear 53 is installed in rotation on described the In one adjusting cavity 12, the adjusting worm screw 52 is installed in rotation in second adjusting cavity 13.

Specifically, as shown in Figures 1 to 7, the micromatic setting 50 further includes that two first fine tuning bearings 54 and two second are micro- Adjust bearing 55, the both ends for adjusting worm gear 53 are respectively in the fixed inner ring for being set in two first fine tuning bearings 54, and two described the The outer ring of one fine tuning bearing 54 is fixedly mounted in the first adjusting cavity 12, so can both prevent from adjusting worm gear 53 in a first direction It is mobile, and can realize the rotatable setting for adjusting worm gear 53.Similarly, fixation is set in two respectively at the both ends for adjusting worm screw 52 In the inner ring of second fine tuning bearing 55, the outer ring of the two second fine tuning bearings 55 is fixedly mounted in the second adjusting cavity 13, such as This can not only prevent adjusting worm screw 52 from moving in its axial direction, but also can realize the rotatable setting for adjusting worm screw 52.Certainly, More first fine tuning bearings 54 and the second fine tuning bearing 55 can be set as needed.

In the present embodiment, as shown in Figures 1 to 7, second adjusting cavity 13, first adjusting cavity 12 and bistrique chamber 11 set gradually from top to bottom.In this way, the Miniaturization Design of the high edging device 100 of operation stability can be easy to implement.

Further, as shown in Figures 1 to 7, for the ease of rotating the adjusting worm screw 52, the micromatic setting 50 is also wrapped Adjusting handle 56 is included, the first end for adjusting worm screw 52 protrudes from the second adjusting cavity 13, and the adjusting handle 56 is fixedly mounted In the first end for adjusting worm screw 52.So, it is only necessary to rotate adjusting handle 56, that is, the edging wheel 40 is adjusted in a first direction On the amount of feeding；Meanwhile by the way that adjusting handle 56 is arranged, can put forth effort convenient for operator, consequently facilitating adjusting edging wheel 40 The amount of feeding.

Specifically, the adjusting handle 56 is equipped with the anti-skid structure for holding convenient for operator.

The manually adjusting with similar functions such as shake the hand is adjusted it will be appreciated, of course, that adjusting handle 56 can also be substituted for Device.

In the present embodiment, the adjustment process of the amount of feeding of the edging wheel 40 is substantially are as follows: operator is by adjusting hand 56 rotation of wheel adjusts worm screw 52, and adjusting worm screw 52 rotation is described to drive the adjusting worm gear 53 for being engaged with connection to rotate The rotation of worm gear 53 is adjusted to drive the adjusting screw rod being spirally connected therewith 51 to move in a first direction, the adjusting screw rod 51 is with moving axis Set 20 moves in a first direction, to drive grinding head shaft 30 to move in a first direction with edging wheel 40, to adjust the mill The position of cincture 40 in a first direction adjusts the amount of feeding of edging wheel 40.

Further, as shown in Figures 1 to 7, the high edging device 100 of the operation stability further includes locking device 80, the locking device 80 is mounted on the head holder 10, and for locking the axle sleeve 20.

Specifically, locking device can be passed through when operator regulates the amount of feeding of edging wheel 40 in a first direction 80 locking axle sleeves 20, to prevent axle sleeve 20 from sliding in bistrique chamber 11 along first direction, so that axle sleeve 20 and fortune not only can be improved Stability when the high edging device 100 of row stability works, in order to the work of edging wheel 40；But also it is hidden to reduce safety Suffer from.And when needing to adjust the amount of feeding of edging wheel 40, regulation locking device 80 makes its unclamp axle sleeve 20, so that axle sleeve 20 can be It is slided in bistrique chamber 11 along first direction.

I other words axle sleeve 20 can be improved and the high edging device 100 of operation stability works by the way that locking device 80 is arranged When stability, in order to edging wheel 40 work, so as to reduce the risk of the rotten brick of chipping.

Further, as shown in Figures 1 to 7, the locking device 80 includes the first locking member 81 and the first fastener 82, The side of the head holder 10 offers the first locking hole 14 being connected with bistrique chamber 11, and first locking member 81 is along second Direction is movably inserted in the first locking hole 14；

First locking member 81 is located at the side of axle sleeve 20, first locking member of the connection of the first fastener 82 81 and mill Headstock 10, and the first locking member 81 can be driven movable in a second direction by first fastener 82, so that the first locking Part 81 is close and locks or separate and unclamp the axle sleeve 20；

The second direction is consistent with the extending direction of axis of first fastener 82.

Specifically, first fastener 82 may be configured as screw, bolt or stud.When first fastener 82 is spiral shell When bolt or screw, the first through hole 811 extended in a second direction, the first through hole are offered on first locking member 81 811 may be configured as via hole or threaded hole, and the bottom of first locking hole 14 corresponds to first through hole 811 and offers the second through-hole 831, second through-hole 831 is set as threaded hole, first fastener 82 pass through first through hole 811 and with the second through-hole 831 are threadedly coupled, to the first locking member 81 can be driven movable in a second direction when rotating the first fastener 82.When need When wanting locking axle sleeve 20, the first fastener 82 is rotated, makes the inwardly activity in a second direction of the first locking member 81, makes the first locking member 81 inner end is close and is only butted on the outer peripheral surface of the axle sleeve 20, to lock the axle sleeve 20.When needing to unclamp axle sleeve 20, instead Direction rotates the first fastener 82.

And when first fastener 82 is set as stud, it can open up on the first locking member 81 and extend in a second direction First through hole 811, correspond to first through hole 811 in the bottom of first locking hole 14 and offer 831 hole of the second through-hole, it is described First through hole 811 and the second through-hole 831 are disposed as via hole, and the both ends of first fastener 82 wear first through hole respectively 811 and second through-hole 831, and the both ends are each equipped with locking nut.

Certainly, there is also other structures forms to realize: the first locking member 81 of the first fastener 82 connection and head holder 10, And the first locking member 81 can be driven movable to lock or unclamp axle sleeve 20 in a second direction by first fastener 82, This need not be repeated one by one.For example, the first through hole 811 and the second through-hole 831 are via hole, first fastener 82 is arranged For bolt, first fastener 82 sequentially pass through first through hole 811 and the second through-hole 831 and with paired locking nut Connection.

Specifically, first locking member 81 may be configured as bulk, column may be alternatively provided as, etc. the utility model is to this It is not construed as limiting.

Further, as shown in Figures 1 to 7, in order to increase the contact area between the first locking member 81 and axle sleeve 20, from And locking effect is improved, 81 inner end of the first locking member has been recessed and 20 outer surface phase of axle sleeve close to the side of axle sleeve 20 Matched first tight lock part 812, when first locking member 81 locks the axle sleeve 20, first tight lock part 812 and institute The abutting of axle sleeve 20 is stated, and is matched for clamping tightly the axle sleeve 20 with the head holder 10.

Further, in order to further improve the locking effect between the first locking member 81 and axle sleeve 20, the axle sleeve The part that 20 outer peripheral surface corresponds to first locking member 81 is equipped with the first anti-skid structure (not shown), and/or, first lock Tight 812 surface of portion is equipped with the second anti-skid structure (not shown).

In a particular embodiment, first anti-skid structure and/or the second anti-skid structure may be configured as increasing friction Coefficient, scraggly irregular lines.

Certainly, the first anti-skid structure and the second anti-skid structure may be set to be other structures form, such as cake, and described One anti-skid structure is set as spaced a plurality of first anti-sliding burr in a second direction, the adjacent two first anti-sliding burr it Between be formed with the first antiskid groove；Second anti-skid structure is set as spaced a plurality of second anti-skidding convex in a second direction Line, the second antiskid groove is formed between the adjacent two second anti-sliding burr, and the first anti-sliding burr is anti-with described second Sliding burr is staggered respectively in second antiskid groove and the first antiskid groove.So as to effectively enhance described first Frictional resistance between locking member 81 and axle sleeve 20, so as to effectively enhance the locking between the first locking member 81 and axle sleeve 20 Effect.

In actual production, it is not easy to directly process 831 (especially described second through-hole of the second through-hole on head holder 10 831 when being set as threaded hole), therefore, in order to reduce the difficulty of processing of the second through-hole 831, as shown in Figures 1 to 7, the locking dress Setting 80 further includes the second locking member 83, and the other side of the head holder 10 offers corresponding with first locking hole 14 and connects The second logical locking hole 15, second locking hole 15 are connected with the bistrique chamber 11, and second locking member 83 is along second Direction is movably inserted in second locking hole 15；

First locking member 81 is divided into the two sides of the axle sleeve 20, first fastening with second locking member 83 Part 82 connects first locking member 81 and second locking member 83, and can drive described the by first fastener 82 One locking member 81 and second locking member 83 are movable in a second direction, to lock or unclamp the axle sleeve 20.

In this way, the second through-hole 831 can be opened up on the second locking member 83, in this way, the processing of the second through-hole 831 can be detached from Head holder 10 and carry out, so as to reduce the difficulty of processing of the second through-hole 831.

Specifically, first locking hole 14 and the second locking hole 15 are integrally machined forming, to simplify the life of head holder 10 Production process.First fastener 82 is set as bolt or screw, offers on first locking member 81 and prolongs in a second direction The first through hole 811 stretched, the first through hole 811 may be configured as via hole or threaded hole, correspond to institute on second locking member 83 It states first through hole 811 and offers the second through-hole 831 extended in a second direction, second through-hole 831 is set as threaded hole, institute It states the first fastener 82 to be threadedly coupled across first through hole 811 with the second through-hole 831, to connect first locking member 81 With second locking member 83, and can by rotate the first fastener 82 drive first locking member 81 and the second locking member 83 in a second direction activity, to lock or unclamp the axle sleeve 20.

Similarly, 83 inner end of the second locking member has been recessed and 20 outer surface phase of axle sleeve close to the side of axle sleeve 20 The second tight lock part 832 matched, when first locking member 81 and the second locking member 83 lock the axle sleeve 20, first lock Tight portion 812 is abutted with the second tight lock part 832 with axle sleeve 20, to clamp axle sleeve 20, thus locking axle sleeve 20.

Similarly, the part that the outer peripheral surface of the axle sleeve 20 corresponds to second locking member 83 is equipped with third anti-skid structure (figure Do not show), and/or, 832 surface of the second tight lock part is equipped with the 4th anti-skid structure (not shown).

The specific structure of the third anti-skid structure and the 4th anti-skid structure can refer to the first anti-skid structure and second anti-skidding Structure need not repeat one by one herein.

Further, as shown in Figures 1 to 7, the locking device 80 further includes elastic component 84, and the two of the elastic component 84 Elasticity is only butted on first locking member 81 and the second locking member 83 respectively at end.

In this way, the elastic component 84 can drive the first locking member 81 and the second lock after unscrewing the first fastener 82 Tight part 83 is far from the axle sleeve 20, to unclamp axle sleeve 20, can so slide in a first direction convenient for axle sleeve 20, so as to be convenient for Adjust the amount of feeding of edging wheel 40.

Specifically, the elastic component 84 may be configured as compressed spring or elastic slice etc..

Certainly, the second through-hole 831 can also be directly opened up on head holder 10.

It should be pointed out that the locking device 80 may be alternatively provided as other structures form, for example, the utility model other In embodiment, the locking device 80 includes multiple clamping screws, and the multiple and bistrique chamber is offered on the head holder 10 The locking screw holes of 11 connections, multiple clamping screw, which respectively corresponds, to be mounted in multiple locking screw holes, and the clamping screw Stop the outer peripheral surface for being butted on the axle sleeve 20 with locking axle sleeve 20 in inner end.

In the present embodiment, the edging wheel 40 is set as Carborundum wheel.It is appreciated that by using Carborundum wheel conduct Edging wheel 40 can be convenient for increasing the diameter of edging wheel 40, so as to be convenient for improving the chip linear velocity and cutting force of edging wheel 40, To which the efficiency of tile edge not only can be improved, the phenomenon that can also effectivelying prevent chipping rotten brick appearance.

Further, the high edging device 100 of the operation stability further includes the components such as end cap, dust cover, this field Technical staff can select setting according to actual needs and suitably, need not repeat one by one herein.

In another embodiment of the utility model, in order to realize that automation adjusts the feeding of edging wheel 40 in its axial direction Amount, the high edging device 100 of the operation stability further include adjusting power device 90, and the adjusting power device 90 is mounted on On the head holder 10, and for driving the adjusting worm screw 52 to rotate.Specifically, 90 output end of adjusting power device with It adjusts worm screw 52 to connect, to drive its rotation.

It is appreciated that in this embodiment, replacing adjusting handle 56, it can be achieved that automatic by using power device 90 is adjusted Change driving and adjust the rotation of worm screw 52, to can realize that automation adjusts the axial feeding of edging wheel 40, so as to greatly save Cost of labor, and the production efficiency of tile edge can be improved.

Further, in this embodiment, as illustrated in figures 1 and 8, the adjusting power device 90 includes fine tuning motor 91 And speed reduction gearing 92, the fine tuning motor 91 adjust worm screw 52 by the driving of speed reduction gearing 92 and rotate.In this way, passing through Speed reduction gearing 92 is set to drive and adjust the rotation of worm screw 52, avoidable fine tuning motor 91 directly drives adjusting worm gear 53 and rotates When and keep the revolving speed for adjusting worm gear 53 excessive, to be not easy to the control of the amount of feeding to edging wheel 40, i other words, by using Speed reduction gearing 92 adjusts the rotation of worm screw 52 to drive, can be convenient for controlling the amount of feeding of edging wheel 40, so as to drop The low difficulty realized automation and adjust the axial feeding of edging wheel 40.

Further, in this embodiment, as illustrated in figures 1 and 8, the speed reduction gearing 92 include driven shaft 921, And intermeshing driving gear 922 and driven gear 923, the diameter of the driving gear 922 are less than the driven gear 923 Diameter, to realize deceleration transmission；

The driven gear 923 is installed on the driven shaft 921, and the driven shaft 921 is along the axis for adjusting worm screw 52 It is rotatably installed on head holder 10 to direction, and one end of the driven shaft 921 is fixedly connected on and adjusts worm screw 52；The master Moving gear 922 is fixedly installed on the output shaft of the fine tuning motor 91.

Specifically, the fine tuning motor 91 drives 922 turns of driving gear when needing to adjust the amount of feeding of edging wheel 40 It is dynamic, so that the driving gear 922 drives the driven gear 923 being engaged with to rotate, so that driven gear 923 drives driven shaft 921 rotations, so that driven shaft 921, which drives, adjusts the rotation of worm screw 52, so that adjusting worm screw 52 drives the adjusting for being engaged with connection Worm gear 53 rotates, and drives the adjusting screw rod 51 being spirally connected therewith to move along first direction so as to adjust worm gear 53, so that mill can be realized The fine tuning of the amount of feeding of cincture 40.

In this embodiment, the driven shaft 921 can be connect by welding with worm screw 52 is adjusted, and can also pass through pin Connection or grafting+fastener connection mode connect, and can also be connected by shaft coupling.It certainly, can also be with the adjusting worm screw 52 are wholely set.In this embodiment, the driving gear 922 is either be directly installed on the output shaft of fine tuning motor 91 On, it is also possible to first be installed on driving shaft, then pass through the output axis connection of driving shaft and fine tuning motor 91, wherein the master Moving axis is installed in rotation on head holder 10 by bearing.

Further, in this embodiment, as illustrated in figures 1 and 8, the speed reduction gearing 92 further includes the first positioning Bearing 924, the driven shaft 921 are installed in rotation on the head holder 10 by the first positioning bearing 924.Such as This is, it can be achieved that driven gear 923 is installed in rotation on head holder 10.

It is adjusted specifically, the driven shaft 921 is installed in rotation on described second by the first positioning bearing 924 In chamber 13, i.e., described 921 fixing sleeve of driven shaft is set in the inner ring of the first positioning bearing 924, the first positioning bearing 924 outer ring is fixedly mounted in the second adjusting cavity 13.

Further, in this embodiment, as illustrated in figures 1 and 8, the speed reduction gearing 92 further includes protecting crust 925, the protecting crust 925 includes base enclosure 9251 and the casing 9252 for being convexly equipped in 9251 periphery of base enclosure, and the protecting crust 925 is installed On head holder 10, and it is provide with driven gear 923；The speed reduction gearing 92 further includes the second positioning bearing 926, it is described from The other end of moving axis 921 is installed in rotation in the base enclosure 9251 by the second positioning bearing 926.In this way, not only The connective stability of driven gear 923 can be enhanced, can also protect the driven gear 923.

Specifically, the base enclosure 9251 is equipped with bearing installation cavity, the outer ring of the second positioning bearing 926 is fixedly mounted In the bearing installation cavity, the other end of the driven shaft 921 is fixedly sheathed in the inner ring of the second positioning bearing 926.

Further, in this embodiment, as illustrated in figures 1 and 8, the speed reduction gearing 92 further includes the first limit Ball (figure is not marked) and/or the second limit ball (figure is not marked), the first limit ball are rollably located in driven gear Between 923 and head holder 10, the second limit ball is rollably located between driven gear 923 and base enclosure 9251.Such as This, can reduce the axially loaded of the first positioning bearing 924 and the second positioning bearing 926, so that its service life can be improved.

Specifically, be formed with first annular slot rolling (figure do not mark) between the driven gear 923 and head holder 10, described the One limit ball is set in the first annular slot rolling；And/or is formed between the driven gear 923 and base enclosure 9251 Second ring slot rolling (figure is not marked), the second limit ball are set in the described second annular slot rolling.

It is appreciated that the speed reduction gearing 92 relies on bistrique in another embodiment of above-mentioned the utility model Seat 10 and be arranged, it is larger to the dependence of head holder 10, be based on this, in the another embodiment of the utility model, be provided with relatively More independent speed reduction gearing 92, specifically sees below.

In the another embodiment of the utility model, as shown in Fig. 1 and Fig. 9, the speed reduction gearing 92 includes driven shaft 921, the reduction gearbox 928 that is mounted on head holder 10 and be set in reduction gearbox 928 and intermeshing driving gear 922 and from Moving gear 923, the diameter of the driving gear 922 are less than the diameter of the driven gear 923；The driving gear 922 is fixed It is installed on the output shaft of the fine tuning motor 91, the driven gear 923 is installed on the driven shaft 921, the driven shaft 921 are rotatably installed on reduction gearbox 928, and one end of the driven shaft 921 is stretched out the reduction gearbox 928 and is fixedly connected on Adjust worm screw 52.

In this way, speed reduction gearing 92 can be detached from head holder 10 and existed, so as to be convenient for the speed reduction gearing 92 installation, maintenance or replacement etc..

Specifically, the driving gear 922 is either be directly installed on the output shaft of fine tuning motor 91；It is also possible to It is first installed on driving shaft, then by the output axis connection of driving shaft and fine tuning motor 91, which can be turned by bearing It is mounted on reduction gearbox 928 dynamicly.

Specifically, the driven shaft 921 realizes the concrete mode being rotatably installed in reduction gearbox 928, can refer to Examples and drawings 8 are stated, need not be repeated one by one herein.

Particularly, in above-mentioned two embodiment, the speed reduction gearing 92 is all made of gear drive；In the utility model In other embodiments, the kinds of drive such as belt transmission are also can be used in the speed reduction gearing 92, based on content disclosed above, Those skilled in the art can be readily conceivable that the specific embodiment of belt deceleration transmission, need not repeat one by one herein.

Particularly, in the other embodiments of the utility model, adjusting handle/adjusting can also be shaken the hand and is mounted directly to tune It saves on screw rod 51, to adjust the axial feeding of edging wheel；The components such as worm screw 52 and adjusting worm gear 53 are adjusted without being arranged.

The utility model also proposes a kind of tile edge production system.As shown in Figures 1 to 10, the tile edge production System 1000 includes:

Rack 200；

Conveyer belt 300, the conveyer belt 300 are mounted in the rack 200；And

The high edging device 100 of operation stability as described above, the high edging device 100 of the operation stability are installed In the rack 200, and it is set to the side of the conveyer belt 300, for the ceramic tile to be processed 400 on conveyer belt 300 It is processed.The specific structure of the high edging device 100 of the operation stability is referring to above-described embodiment, due to the utility model Tile edge production system 1000 uses whole technical solutions of above-mentioned all embodiments, therefore at least has above-described embodiment Technical solution brought by all beneficial effects, this is no longer going to repeat them.

Common, the generally setting two of the high edging device 100 of the operation stability, two operation stabilities are high Edging device 100 is respectively arranged on the two sides of conveyer belt 300, carries out edging processing with the two sides respectively to ceramic tile 400 to be processed.

It is the high edging device 100 of the utility model operation stability and tile edge production system in this special emphasis System 1000 has many advantages, such as that high degree of automation, productivity are high, processing quality is high, easy to maintain, easily operated；And can also have Eliminate the defects of contraction is indefinite, " concentric reducer ", " rippled edge " and micro chipping of ceramic tile in effect ground.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, It is all under the inventive concept of the utility model, equivalent structure made based on the specification and figures of the utility model becomes It changes, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (10)

1. a kind of edging device that operation stability is high characterized by comprising

Head holder is offered on the head holder and is extended in a first direction and the bistrique chamber of both ends open setting；

It is intracavitary to be slidably mounted in the bistrique along first direction for axle sleeve, and the axle sleeve has and prolongs along the first direction Stretch axis hole；

Grinding head shaft is installed in rotation in the axis hole；

Edging wheel is installed on the first end of the grinding head shaft；

Micromatic setting is mounted on the head holder, and for driving the axle sleeve in the intracavitary sliding of the bistrique, to drive It states edging wheel to move along first direction, and keeps the position of the edging wheel in a first direction adjustable；And

Locking device, including the first locking member and the first fastener, the side of the head holder offer and the bistrique chamber phase First locking hole of connection, first locking member are movably inserted in a second direction in first locking hole；It is described First locking member is set to the side of the axle sleeve, and first fastener connects first locking member and the head holder, and First locking member can be driven movable in a second direction by first fastener, so that first locking member is close And it locks or separate and unclamp the axle sleeve；It is anti-that the part that the outer peripheral surface of the axle sleeve corresponds to first locking member is equipped with first Slipped Clove Hitch structure.

2. the high edging device of operation stability as described in claim 1, which is characterized in that the first anti-skid structure setting For for increasing coefficient of friction, scraggly irregular lines.

3. the high edging device of operation stability as described in claim 1, which is characterized in that first locking member inner end is leaned on The side of the nearly axle sleeve is recessed the first tight lock part to match with the sleeve outer surface, when first locking member When locking the axle sleeve, first tight lock part is abutted with the axle sleeve, and is matched for clamping tightly the axle sleeve with the head holder；

First tight lock part surface is equipped with the second anti-skid structure.

4. the high edging device of operation stability as claimed in claim 3, which is characterized in that the first anti-skid structure setting For spaced a plurality of first anti-sliding burr in a second direction, it is anti-that first is formed between the adjacent two first anti-sliding burr Sliding groove；Second anti-skid structure is set as spaced a plurality of second anti-sliding burr in a second direction, described in adjacent two The second antiskid groove is formed between second anti-sliding burr, the first anti-sliding burr is interlocked respectively with the described second anti-sliding burr It is arranged in second antiskid groove and the first antiskid groove.

5. the high edging device of operation stability as claimed in claim 3, which is characterized in that the locking device further includes Two locking members, the other side of the head holder offer the second locking hole that is corresponding with first locking hole and being connected to, institute It states the second locking hole to be connected with the bistrique chamber, second locking member is movably inserted in described second in a second direction In locking hole；

First locking member and second locking member are divided into the two sides of the axle sleeve, described in the first fastener connection First locking member and second locking member, and first locking member and described second can be driven by first fastener Locking member is movable in a second direction, to lock or unclamp the axle sleeve.

6. the high edging device of operation stability as claimed in claim 5, which is characterized in that the locking device further includes bullet Property part, elasticity is only butted on first locking member and second locking member respectively at the both ends of the elastic component.

7. the high edging device of operation stability as described in any one of claim 1 to 6, which is characterized in that described micro- Adjusting device includes adjusting screw rod, and the adjusting screw rod is screwed on the head holder along first direction, the adjusting screw rod and institute Shaft room is stated every setting, and one end of the adjusting screw rod is fixedly connected with the axle sleeve, to drive the axle sleeve in head holder On along first direction slide.

8. the high edging device of operation stability as claimed in claim 7, which is characterized in that the micromatic setting further includes phase Mutually engagement connection adjusts worm screw and adjusts worm gear, and the adjusting worm screw and the adjusting worm gear are installed in rotation on the mill On headstock, and the adjusting screw rod is spirally connected with the shaft mounting hole for adjusting worm gear；It can be driven by rotating the adjusting worm screw The worm gear rotation, the rotation of the worm gear can drive the adjusting screw rod being spirally connected therewith to drive the axle sleeve on head holder It is slided along first direction.

9. the high edging device of operation stability as claimed in claim 7, which is characterized in that the separate mill of the axle sleeve The outer peripheral surface of cincture one end is convexly equipped with Connection protrusion, and one end of the adjusting screw rod is fixedly connected on the Connection protrusion.

10. a kind of tile edge production system characterized by comprising

Rack；

Conveyer belt, the conveyer belt are mounted on the rack；And

The high edging device of operation stability as in one of claimed in any of claims 1 to 9, the high mill of the operation stability Side device is mounted on the rack, and be set to the conveyer belt side, with for the ceramic tile to be processed on conveyer belt into Row processing.